1. SHORT CYCLE - ASSOCIATE'S DEGREE
  2. TAVAS VOCATIONAL SCHOOL
  3. CROP AND ANIMAL PRODUCTION DEPARTMENT
  4. 785 MEDICAL AND AROMATIC PLANTS
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
ORT 219PLANT BREEDING AND GENETICS2 + 02nd Semester2

COURSE DESCRIPTION
Course Level Associate's Degree
Course Type Compulsory
Course Objective Students are expected to have knowledge about the basic principles of heredity in plants and to apply this knowledge in plant breeding studies.
Course Content Theories of heredity before Mendel, the birth of genetic science, Mendelian genetics, dihybrid crosses, trihibrit crosses, inheritance models, deviations from Mendel's rule, mitosis and meiosis cell divisions, non-nucleus inheritance, Genetic problem solutions, population genetics, Hardy Weinberg principle, chromosome mutations, Chromosome structure, plant breeding methods, genetic linkage and mapping, quantitative inheritance. Selection based on marker (MAS) applications, Protection of plant gene resources and formation of core collections, Resistance to plant disease factors, seed certification
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Understanding the basic principle of inheritance.
2Understanding the cytogenetic basis of inheritance.
3 Understanding of plant genetic linkage analysis
4Understanding of quantitative inheritance in plants
5To be able to solve genetic connection problems.
6Understanding of plant breeding methods
7Understanding of molecular breeding methods
8To understand the importance of plant gene sources in terms of plant breeding

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12PO 13PO 14PO 15PO 16PO 17PO 18PO 19PO 20PO 21PO 22PO 23
LO 001                       
LO 002                       
LO 003                       
LO 004                       
LO 005                       
LO 006                       
LO 007                       
LO 008                       
Sub Total                       
Contribution00000000000000000000000

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14228
Assignments144
Mid-terms166
Final examination166
Presentation (Student)248
Total Work Load

ECTS Credit of the Course





52

2
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2023-2024 Spring1NAİME NUR BOZBEYOĞLU KART
Details 2022-2023 Spring1BETÜL PAK
Details 2021-2022 Spring1NAİME NUR BOZBEYOĞLU KART
Details 2020-2021 Spring1NAİME NUR BOZBEYOĞLU KART


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
ORT 219 PLANT BREEDING AND GENETICS 2 + 0 1 Turkish 2023-2024 Spring
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Lecturer NAİME NUR BOZBEYOĞLU KART nbozbeyoglu@pau.edu.tr TMYO A0104 %70
Goals Students are expected to have knowledge about the basic principles of heredity in plants and to apply this knowledge in plant breeding studies.
Content Theories of heredity before Mendel, the birth of genetic science, Mendelian genetics, dihybrid crosses, trihibrit crosses, inheritance models, deviations from Mendel's rule, mitosis and meiosis cell divisions, non-nucleus inheritance, Genetic problem solutions, population genetics, Hardy Weinberg principle, chromosome mutations, Chromosome structure, plant breeding methods, genetic linkage and mapping, quantitative inheritance. Selection based on marker (MAS) applications, Protection of plant gene resources and formation of core collections, Resistance to plant disease factors, seed certification
Topics
WeeksTopics
1 Pre-Mendelian theories of inheritance, the birth of genetics
2 Mendelian genetics, dihybrid crosses
3 trihybrid crosses, inheritance models
4 trihybrid crosses, inheritance models
5 mitosis and meiosis cell divisions, extranuclear inheritance
6 Genetic problem solutions
7 population genetics, Hardy Weinberg principle
8 chromosome mutations, chromosome structure
9 plant breeding methods
10 genetic linkage and mapping, quantitative inheritance
11 Marker-based selection (MAS) applications
12 Preservation of plant genetic resources and creation of core collections
13 Breeding resistance to plant disease agents
14 seed certification
Materials
Materials are not specified.
Resources
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam60Final Exam
Midterm Exam40Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes